eprintid: 594 rev_number: 13 eprint_status: archive userid: 10 dir: disk0/00/00/05/94 datestamp: 2012-10-29 16:43:22 lastmod: 2015-05-29 20:13:02 status_changed: 2012-10-29 16:43:22 type: report metadata_visibility: show item_issues_count: 0 creators_name: van’t Hof, B creators_name: Molenaar, J creators_name: Ros, L creators_name: Zaal, M title: How to Mix Molecules with Mathematics ispublished: pub subjects: discrete subjects: materials subjects: other studygroups: esgi67 full_text_status: public abstract: In this paper we develop two methods to calculate thermodynamic properties of mixtures. Starting point are the basic assumptions that also form the basis for the COSMO-RS model. In this approach, the individual molecules are represented by their geometrical shape with an electrical charge density on their surfaces. Next, the surface is split up into surface segments each with its own charge. In COSMO-RS a strong reduction is introduced by treating the segments as if they are completely independent. In the present study we take into account that the coupling between two patches is essentially dependent on the charge distribution on neighboring segments and on the local geometrical structure of the surface. Two approaches are followed. The first one points out how the model equations, which comprise the optimization of the entropy and conservation of internal energy, can efficiently be solved in general, thus also if the dependency between segments and the local geometry is included in the expression for the coupling energy between segments. In the second method the configuration with maximal entropy and prescribed energy is sought via simulation. Successive molecular configurations of the mixture are simulated and updated via a genetic algorithm to optimize the entropy. The second method is more time consuming but very general. date: 2009 citation: van’t Hof, B and Molenaar, J and Ros, L and Zaal, M (2009) How to Mix Molecules with Mathematics. [Study Group Report] document_url: http://miis.maths.ox.ac.uk/miis/594/1/Wag3.pdf